![]() ![]() But a component like the cooling channels is very similar to our blood vessels so you could take these components from the rocket and design another solution for creating a synthetic organ for example.” Applying components from the rocket algorithm might not work when applying it to something else because it’s not a rocket. “Every solution, in this case the rocket engine algorithm, is made up on a combination of algorithmic components. ![]() “Our system is completely modular,” said Pham. Every time you change your requirements, you get another rocket that is perfectly designed for the needs that you’ve set out.”īeyond rocket engines, the company’s AI driven software platform also lends itself to an almost infinite range of other products. The new models are always generated from scratch. “It’s self-optimising, rendering one solution after another, always comparing. “You test the first design or run virtual simulations of how it would perform, input the data from the test into the algorithm and it uses that to improve the design of the next model,” Pham explained. Hyperganic is currently in talks with different space companies about how this approach could be integrated into their design process, and if the process is implemented by an aerospace organisation then the design will be further refined using a digital evolution feedback loop – in other words a continual feedback loop that improves the design every time it runs, and bearing in mind the speed of AI this loop could be run thousands of times a second to evolve the design at incredible speed. “So the inner part is very solid, while towards the outside the structure becomes more porous to save on weight. “We are able to print in different material densities, a method which has not been used in rocket design so far,” said Pham.
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